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@article{1570477, author = {Bokwa, Aanita and Geletič, Jan and Lehnert, Michal and ZuvelaandAloise, Maja and Hollosi, Brigitta and Gal, Tamas and Skarbit, Nora and Dobrovolný, Petr and Hajto, Monika J. and Kielar, Rafael and Walawender, Jakub P. and Stastny, Pavel and Holec, Juraj and Ostapowicz, Katarzyna and Burianová, Jarmila and Garaj, Marcel}, article_location = {Lausanne}, article_number = {OCT}, doi = {http://dx.doi.org/10.1016/j.enbuild.2019.07.023}, keywords = {Heatwave; Thermal comfort; Urban climate; Air temperature; MUKLIMO_3}, language = {eng}, issn = {0378-7788}, journal = {ENERGY AND BUILDINGS}, title = {Heat load assessment in Central European cities using an urban climate model and observational monitoring data}, url = {https://www.sciencedirect.com/science/article/pii/S0378778818320231}, volume = {201}, year = {2019} }
TY - JOUR ID - 1570477 AU - Bokwa, Aanita - Geletič, Jan - Lehnert, Michal - Zuvela-Aloise, Maja - Hollosi, Brigitta - Gal, Tamas - Skarbit, Nora - Dobrovolný, Petr - Hajto, Monika J. - Kielar, Rafael - Walawender, Jakub P. - Stastny, Pavel - Holec, Juraj - Ostapowicz, Katarzyna - Burianová, Jarmila - Garaj, Marcel PY - 2019 TI - Heat load assessment in Central European cities using an urban climate model and observational monitoring data JF - ENERGY AND BUILDINGS VL - 201 IS - OCT SP - 53-69 EP - 53-69 PB - ELSEVIER SCIENCE SA SN - 03787788 KW - Heatwave KW - Thermal comfort KW - Urban climate KW - Air temperature KW - MUKLIMO_3 UR - https://www.sciencedirect.com/science/article/pii/S0378778818320231 L2 - https://www.sciencedirect.com/science/article/pii/S0378778818320231 N2 - Diurnal variability of spatial pattern of air temperature was studied in five cities in Central Europe: Bratislava (Slovakia), Brno (Czech Republic), Krakow (Poland), Szeged (Hungary) and Vienna (Austria), during one of the heat waves in 2015 (4-14 August), with the application of micro-climate model MUKLIMO_3. 8th August was chosen to study in detail the urban heat load at 10.00, 16.00, 22.00 and 4.00 CEST. Local Climate Zones concept was used to supply data for the model and for the interpretation of the results obtained. Model outcomes were validated with measurement data from 86 points belonging to the networks which operate in the cities studied. The results obtained show that among urban LCZ, the highest heat load was observed for LCZ 2 and 3 from 16.00 to 4.00, while at 10.00 there is no such clear pattern. Unlike forested areas, open green areas can contribute to the generation of high air temperature: >35 degrees C during day time and >30 degrees C during night time. Important factors controlling the intra-zonal and inter-zonal variability of air temperature in particular LCZs are the local environmental conditions. During the day time, diversified relief in the area of the city and its vicinities generates higher heat load in the valleys' floors than in areas located above, both in rural and urban areas. The same landforms experience lower heat load during the night time due to air temperature inversions effect. ER -
BOKWA, Aanita, Jan GELETIČ, Michal LEHNERT, Maja ZUVELA-ALOISE, Brigitta HOLLOSI, Tamas GAL, Nora SKARBIT, Petr DOBROVOLNÝ, Monika J. HAJTO, Rafael KIELAR, Jakub P. WALAWENDER, Pavel STASTNY, Juraj HOLEC, Katarzyna OSTAPOWICZ, Jarmila BURIANOVÁ a Marcel GARAJ. Heat load assessment in Central European cities using an urban climate model and observational monitoring data. \textit{ENERGY AND BUILDINGS}. Lausanne: ELSEVIER SCIENCE SA, 2019, roč.~201, OCT, s.~53-69. ISSN~0378-7788. Dostupné z: https://dx.doi.org/10.1016/j.enbuild.2019.07.023.
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